Property defined

For hydrocarbon and nonpolar gas mixtures, the Pitzer pure component method can be used to predict vapor density by replacing the true critical properties with pseudocritical properties defined in... 

The information contained in the three data bases provides the necessary information required to design the optimum column. In addition, once the column has been designed, and its properties defined, a complementary set of Analytical Specifications can also be calculated. Thus, the design protocol contains three data bases. Performance Criteria, Elective Variables and Instrument Constraints. 

Some of the other critical properties defined by the industry include volume resistivity, dielectric dissipation factor, insulative resistance and the like. 

The dipole moment p. is a molecular property defined as the product of charge (usually just a fraction of the electronic change, of course) and distance between the centers of positive and negative charge in the molecule. The dipole moment is usually expressed in debyes (D), where 1 D = 1(T esu in SI units 1 D = 3.3356 X 10 ° C-m. so, for example, the dipole moment of water is 1.84 D or 6.14 in units of 10 C-m. Again a rough correspondence is seen between this property of a molecule and its polarity, though e and p. are not precisely correlated. 

Specimens for these tests may be any practical form, such as flat plates, sheets, or tubes. These tests describe methods for determining the several properties defined below. T vo electrodes are placed on or embedded in the surface of a test specimen. Different properties are obtained. 

Partitioning or cell-based methods provide an absolute measure of the chemical space covered by a collection of compounds. They are based on the definition of a low-dimensional chemistry space, for example, one based on a small number of physicochemical properties such as molecular weight, calculated logP, and number of hydrogen bond donors [45]. Each property defines an axis of the chemistry-space. The range of values for each property is divided into a set of bins, and the combinatorial product of all bins then defines the set of cells or partitions that make up the space. 

Carl S. Marvel. The Development of Polymer Chemistry in America—The Early Days. Journal of Chemical Education. 58 (July 1981) 535-539. Source for biological molecules have special properties defined terms clears up mystery why amides put aside and failure to make Dacron. 

Suppose we now assign a physical meaning to the velocity v, representing it as the velocity of matter in the volume, V. Then if V always contains the same mass, it is a system volume. The properties defined for each point of the system represent those of a continuum in which the macroscopic character of the system is retained as we shrink to a point. Properties at a molecular or atomic level do not exist in this continuum context. Furthermore, since the system volume is fixed in mass, we can regard volume V to always enclose the same particles of matter as it moves in space. Each particle retains its continuum character and thermodynamic properties apply. 

This is the relationship we seek. It says that the rate of change of a property / defined over a system volume is equal to the rate of change for the control volume plus a correction for matter that carries / in or out. This follows since v w is the relative velocity of matter on the boundary of the control volume. If v — w = 0, no matter crosses the boundary. As we proceed in applying Equation (3.12) to the conservation laws and in identifying a specific property for/, we will bring more meaning to the process. We will consider the system to be composed of a fluid, but we need not be so restrictive, since our analysis will apply to all forms of matter. 

The surface tension defined above was related to an interface that behaved mechanically as a membrane stretched uniformly and isotropically by a force which is the same at all points on the surface. A surface property defined this way is not always applicable to the surfaces of solids and the surface energy of planar surfaces is defined to take anisotropy into account. The surface energy is often in the literature interchanged with surface tension without further notice. Although this may be useful in practice, it is strictly not correct. 

Without such a mechanism, it becomes difficult to know whether the properties defined on B are intrinsic (that is, apply universally) to all Bs, or whether those properties are defined only on those Bs that happen to be within an A. When an engine runs, does it always turn the wheels of a car How about when it is propelling a boat Or when it is mounted on a test jig at the mechanic s ... 

Mass transfer phenomena usually are very effective on distance scales much larger than the dimensions of the cell wall and the double layer dimensions. Thicknesses of steady-state diffusion layers1 in mildly stirred systems are of the order of 10 5 m. Thus, one may generally adopt a picture where the local interphasial properties define boundary conditions while the actual mass transfer processes take place on a much larger spatial scale. 

Computing properties, defined, 76 729-730 CoMSIA, pharmacophore generation and validation, 6 12 Concavalin A (Con A), 9 66-67 Concave receptor, 76 774 Concentrate, defined, 76 127 Concentration... 

Extrapolating properties, defined, 16 729 Extra spring copper alloys, 7 723t Extreme ambient conditions, lubrication and, 15 252-256 Extreme-case analysis, 9 547 Extreme environments, solid and liquid lubricants for, 15 256 Extremely low toxic substances, 23 113 Extreme pressure (EP) lubrication regime, 15 214. See also EP entries Extreme purity gases, analyses of, 13 468 Extreme ultraviolet lithography, 15 189-191... 

All members of this pigment family share good lightfastness, combined with poor solvent and migration resistance. These properties define and limit their application. Monoazo yellow pigments are used extensively in air-dried alkyd resin and in emulsion paints, and certain inks used in flexo and screen printing. Other applications are in letterpress and offset inks, as well as in office articles. 

Mixture property Define the model to be used for liquid activity coefficient calculation, specify the binary mixture (composition, temperature, pressure), select the solute to be extracted, the type of phase equilibrium calculation (VLE or LLE) and finally, specify desired solvent performance related properties (solvent power, selectivity, etc.)... 

The species and properties defining a given level of complexity result from and may be explained on the basis of the species belonging to the level below and of their multibody interaction, e.g. supramolecular entities in terms of molecules, cells in terms of supramolecular entities, tissues in terms of cells, organisms in terms of tissues and so on up to the complexity of behavior of societies and ecosystems. For example, in the self-assembly of a virus shell, local information in the subunits is sufficient to tell the proteins where to bind in order to generate the final polypro-teinic association, thus going up a step in complexity from the molecular unit to the... 

Operational definition A property defined by the manner in which it is measured. Opposite of a theoretical or conceptual definition. 

Figure 6. Distributions of essential computed molecular properties defining drug-likeness for selected compound sets. Shown are the fraction of compounds vs. the properties. Orange NIBR historical medicinal chemistry collection. Brown Compilation of combinatorial chemistry libraries. Dark Green Drugs (launched or Phase III listed in MDDR or CMC). Brown Compilation from combinatorial libraries. Pink Natural products of DNP. tight Green HTS hits of NIBR 2004 screens. All properties were calculated with Pipeline Pilot software www.scitegic.com).

Parameter the unknown true value of the basic properties defining a population or distribution. 

It should be evident from the foregoing discussion that the property defined to have zero surface excess may be chosen at will, the choice being governed by the experimental or mathematical features of the problem at hand. Choosing the surface excess number of moles of one component to be zero clearly simplifies Equation (44). The same simplification could have been accomplished by defining the mathematical surface so that Y2 would be zero, a choice that would obviously deemphasize the solute. If the total number of moles N, the total volume V, or the total weight W had been the property chosen to show a zero surface excess, then in each case both T, and Y2 (which would be identified as TN, rK, or T for these three conventions) would have nonzero values. Last, note that the surface excess is an algebraic... 

The pharmacophore is another example of a species with a distinct level of complexity lying between the systems described as atoms and those described as molecules. The existence of a pharmacophore is an emergent property defined by a pharmacological receptor and this confers upon it the identity of a complex system. 

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